LM386N audio amp driven with propeller

I'm trying to connect this audio ic to the prop to drive an 8 ohm, .25 watt speaker. Im using a 5 volt external power supply. How do i connect to the pins on the ic? I will initially be using the gain 20. Would pin 6 be the 5 volt +, and pin 3 be from the prop? Should i have a resistor in series from the i/o pin since the voltage will be higher than 3.3 to the ic? Is Pin 2 ground from the prop? Pin 4, 5 volt ground? Looks like the gain 200 picture posted instead of the 20 gain.

Comments

Ahhh, the venerable, cheap, and ugly LM386! Such a messy amp chip with all those extra components and large output cap when even chips decades odl supported directly coupled BTL loads. However the circuit diagram is misleading as it does not show the AC coupling that you will require to drive this chip, I am assuming you are generating analog audio via duty mode rather than simple digital sounds. As always you need an RC filter from the Prop pin and then you need to AC couple that to pin 3 via your volume control whether that be variable or made up of two fixed resistors. I favor a much lower R for the RC filter for the increased drive and lower output impedance so I use 220R and a 0.1uF cap with another 0.1uF cap or better for the AC coupling. Don't expect much power output if you are only running Vs at 5V. If you want a much louder sound at 5V you should use BTL or Class D amp chips (3W) for that.

I'm trying to connect this audio ic to the prop to drive an 8 ohm, .25 watt speaker. Im using a 5 volt external power supply. How do i connect to the pins on the ic? I will initially be using the gain 20.
Would pin 6 be the 5 volt +, and pin 3 be from the prop? Should i have a resistor in series from the i/o pin since the voltage will be higher than 3.3 to the ic? Is Pin 2 ground from the prop? Pin 4, 5 volt ground? Looks like the gain 200 picture posted instead of the 20 gain.

As Peter says, BTL amps save the output coupling cap and deliver more power eg NCS2211.

That said, the LM386 still works, and you can prune some parts. Pin7 C is optional, and lowest gain has fewer parts.
Looking at the internal circuit schematic, Pins 2 & 3 show 50k in, but there are also pins 1 & 8 & 7 that could have resistor-series signal drive.
If using 2 or 3, and a AV=20 you need a divider of 1/12 from 3V and AC coupling. (3+ parts)
Or, you could experiment with ~10k direct from your P1 pin to Pin 1 or Pin8, (Gnd Pin2 & Pin 3) and scope the output.

As mentioned, bridge tied, differential outputs are superior to the single ended output that needs the fat capactor. Furthermore, differential inputs are nice too, if nothing else, to forestall the annoying pop that can occur when starting up single ended. The Prop's duty differential mode is convenient for that. The LM386 does have a PNP differential input stage, so it appears that it could accept differential input instead of the single ended input shown in the example schematics. Not easily though, because it has a narrow +/- 0.4V common mode range centered around ground, . The modern chips (I've used the TPA6204) have a common mode range that spans almost the full power supply range. The +/- inputs can sit at Vdd/2 = 1.65V, and the amplifier can be set up with a gain of close to x1 to take advantage of the full span of pwm input.